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MTH-5101 Bonus Quiz. (1) x ≥ 40. (2) y ≥ 0. (3) y ≤ 140. (4) x - y - 30 ≤ 0. (5) x + y ≤ 200. (6) 5x + 4y ≥ 600. Name: ________________________.
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MTH-5101 Bonus Quiz (1) x ≥ 40 (2) y ≥ 0 (3) y ≤ 140 (4) x - y - 30 ≤ 0 (5) x + y ≤ 200 (6) 5x + 4y ≥ 600 Name: ________________________ Construct the polygon of constraints for the following linear inequalities. Determine the exact ordered pairs for the critical points of the polygon of constraints. (Use the grids on the next page to construct graphs.)
200 150 100 50 50 100 150 200 Construct the polygon of constraints for the following linear inequalities. (1) x ≥ 40 (2) y ≥ 0 (3) y ≤ 140 (4) x - y - 30 ≤ 0 (5) x + y ≤ 200 (6) 5x + 4y ≥ 600
200 150 100 50 0 x 30 x x 0 200 120 100 y 70 0 0 y y 200 0 150 50 100 150 200 • x - y - 30 ≤ 0 • -y = -x + 30 • y = x - 30 • x - y - 30 ≤ 0 • Test (0,0) • 0 - 0 - 30 ≤ 0 • -30 ≤ 0 True • x + y ≤ 200 • y = -x + 200 • 5x + 4y ≥ 600 • 4y = -5x + 600 • 5x + 4y ≥ 600 • Test (0,0) • 5(0) + 4(0) ≥ 600 • 0 ≥ 600 False • x + y ≤ 200 • Test (0,0) • 0 + 0 ≤ 200 true
Construct the polygon of constraints for the following linear inequalities. (1) x ≥ 40 (2) y ≥ 0 (3) y ≤ 140 (4) x - y - 30 ≤ 0 (5) x + y ≤ 200 (6) 5x + 4y ≥ 600
A (40,100) Construct the polygon of constraints for the following linear inequalities. (1) x = 40 (6) 5x + 4y = 600 Point A is defined by the intersection of the line having the equation x = 40 and the line having the equation 5x + 4y = 600. One of these equations (1) has only one variable. This means that one of the variables of the point of intersection is defined: x = 40. (40, ____ ) The other variable y can be determined by substituting the given x-value into the equation containing 2 variables. • 5x + 4y = 600 • 5(40) + 4y = 600 • 4y = 600 – 200 • 4y = 400 y = 100 (40,100)
B (40,140) Construct the polygon of constraints for the following linear inequalities. (1) x = 40 (3) y = 140 Point B is defined by the intersection of the line having the equation x = 40 and the line having the equation y = 140. Both of these equations have only one variable. This means that both of the variables of the point of intersection is defined: x = 40; y = 140. (40, 140)
C (60,140) Construct the polygon of constraints for the following linear inequalities. (3) y = 140 (5) x + y = 200 Point C is defined by the intersection of the line having the equation y = 140 and the line having the equation x + y = 200. One of these equations (3) has only one variable. This means that one of the variables of the point of intersection is defined: y = 140. ( ____, 140) The other variable x can be determined by substituting the given y-value into the equation containing 2 variables. • x + y = 200 • x + 140 = 200 • x = 200 – 140 • x = 60 (60,140)
D (115,85) Construct the polygon of constraints for the following linear inequalities. (4) x - y - 30 = 0 (5) x + y = 200 Point D is defined by the intersection of the line having the equation x -y – 30 = 0 and the line having the equation x + y = 200. Both of these equations have 2 variables. To solve this either comparison, substitution or elimination can be used. (4) x - y = 30 (5) x + y = 200 2x = 230 x = 115 • x + y = 200 • 115 + y = 200 • y = 200 – 115 • y = 85 (115,85)
E (80,50) Construct the polygon of constraints for the following linear inequalities. (4) x - y - 30 = 0 (6) 5x + 4y = 600 Point E is defined by the intersection of the line having the equation x -y – 30 = 0 and the line having the equation 5x + 4y = 600. Both of these equations have 2 variables. To solve this either comparison, substitution or elimination can be used. (4) (x - y = 30) х 4 (6) 5x + 4y = 600 4x - 4y = 120 9x = 720 x = 80 • 5x + 4y = 600 • 5(80) + 4y = 600 • 4y = 600 – 400 • 4y = 200 y = 50 (80,50)